W. I. Midvidy scite author profile

This paper presents a theoretical analysis of the temporal and spatial stability of Poiseuille flow in elastic tubes to infinitesimal axisymmetric disturbances. A cylindrical shell model which includes the effects of transverse shear and rotatory inertia is employed for the tube wall. The characteristic equation of the system is solved numerically and two sets of modes are obtained; one set has eigenvalues that are independent of the properties and dimensions of the tube wall, while the other set has eigenvalues that depend on the tube parameters. One mode of the “tube-dependent” set is shown to have a critical Reynolds number that depends on the elastic properties and dimensions of the tube and either wave number or frequency of the disturbance.

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Simulation of the distribution of flow and phases in vertical and horizontal bundles using the ASSERT-4 subchannel code

Carver

Tahir

Kiteley

et al. 1990

Nuclear Engineering and Design

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Measurements of impact loads and expansion of flashing water jets

Forrest¹,

Shin²,

Midvidy³

et al. 1987

Nuclear Engineering and Design

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Modcir: A three-dimensional transient code used in thermal-hydraulic analyses of candu power reactors

Austman

Szymanski

Midvidy

1983

Mathematics and Computers in Simulation

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W. I. Midvidy

Experimental and Numerical Modelling of Combined Forced and Free Convection in a Complex Geometry With Internal Heat Generation

Stability of Poiseuille Flow in Elastic Tubes

Simulation of the distribution of flow and phases in vertical and horizontal bundles using the ASSERT-4 subchannel code

Measurements of impact loads and expansion of flashing water jets

Modcir: A three-dimensional transient code used in thermal-hydraulic analyses of candu power reactors

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